/* Free the entry if it is dead and nobody uses it anymore */
void UA_NodeStore_release(const UA_Node *managed) {
struct nodeEntry *entry = (struct nodeEntry*) ((uintptr_t)managed - offsetof(struct nodeEntry, node));
if(uatomic_add_return(&entry->refcount, -1) == 0) {
node_deleteMembers(&entry->node);
UA_free(entry);
}
}
int lttng_fd_get(enum lttng_fd_type type, unsigned int nr)
{
long newval;
if (type >= LTTNG_FD_NR_TYPES) {
return -EINVAL;
}
newval = uatomic_add_return(&fd_count, (long) nr);
if ((long) (newval * 100)
- (long) (max_nr_fd * fd_threshold[type]) > 0) {
uatomic_sub(&fd_count, (long) nr);
return -EPERM;
}
return 0;
}
static void processOPN(UA_Connection *connection, UA_Server *server, const UA_ByteString *msg, size_t *pos) {
if(connection->state != UA_CONNECTION_ESTABLISHED) {
connection->close(connection);
return;
}
UA_UInt32 secureChannelId;
UA_StatusCode retval = UA_UInt32_decodeBinary(msg, pos, &secureChannelId);
UA_AsymmetricAlgorithmSecurityHeader asymHeader;
retval |= UA_AsymmetricAlgorithmSecurityHeader_decodeBinary(msg, pos, &asymHeader);
UA_SequenceHeader seqHeader;
retval |= UA_SequenceHeader_decodeBinary(msg, pos, &seqHeader);
UA_NodeId requestType;
retval |= UA_NodeId_decodeBinary(msg, pos, &requestType);
UA_OpenSecureChannelRequest r;
retval |= UA_OpenSecureChannelRequest_decodeBinary(msg, pos, &r);
if(retval != UA_STATUSCODE_GOOD || requestType.identifier.numeric != 446) {
UA_AsymmetricAlgorithmSecurityHeader_deleteMembers(&asymHeader);
UA_SequenceHeader_deleteMembers(&seqHeader);
UA_NodeId_deleteMembers(&requestType);
UA_OpenSecureChannelRequest_deleteMembers(&r);
connection->close(connection);
return;
}
UA_OpenSecureChannelResponse p;
UA_OpenSecureChannelResponse_init(&p);
Service_OpenSecureChannel(server, connection, &r, &p);
UA_OpenSecureChannelRequest_deleteMembers(&r);
UA_SecureChannel *channel = connection->channel;
if(!channel) {
connection->close(connection);
UA_OpenSecureChannelResponse_deleteMembers(&p);
UA_AsymmetricAlgorithmSecurityHeader_deleteMembers(&asymHeader);
return;
}
/* send the response with an asymmetric security header */
#ifndef UA_MULTITHREADING
seqHeader.sequenceNumber = ++channel->sequenceNumber;
#else
seqHeader.sequenceNumber = uatomic_add_return(&channel->sequenceNumber, 1);
#endif
UA_SecureConversationMessageHeader respHeader;
respHeader.messageHeader.messageTypeAndFinal = UA_MESSAGETYPEANDFINAL_OPNF;
respHeader.messageHeader.messageSize = 0;
respHeader.secureChannelId = p.securityToken.channelId;
UA_NodeId responseType = UA_NODEID_NUMERIC(0, UA_NS0ID_OPENSECURECHANNELRESPONSE +
UA_ENCODINGOFFSET_BINARY);
UA_ByteString resp_msg;
retval = connection->getSendBuffer(connection, connection->remoteConf.recvBufferSize, &resp_msg);
if(retval != UA_STATUSCODE_GOOD) {
UA_OpenSecureChannelResponse_deleteMembers(&p);
UA_AsymmetricAlgorithmSecurityHeader_deleteMembers(&asymHeader);
return;
}
size_t tmpPos = 12; /* skip the secureconversationmessageheader for now */
retval |= UA_AsymmetricAlgorithmSecurityHeader_encodeBinary(&asymHeader, &resp_msg, &tmpPos); // just mirror back
retval |= UA_SequenceHeader_encodeBinary(&seqHeader, &resp_msg, &tmpPos); // just mirror back
retval |= UA_NodeId_encodeBinary(&responseType, &resp_msg, &tmpPos);
retval |= UA_OpenSecureChannelResponse_encodeBinary(&p, &resp_msg, &tmpPos);
if(retval != UA_STATUSCODE_GOOD) {
connection->releaseSendBuffer(connection, &resp_msg);
connection->close(connection);
} else {
respHeader.messageHeader.messageSize = tmpPos;
tmpPos = 0;
UA_SecureConversationMessageHeader_encodeBinary(&respHeader, &resp_msg, &tmpPos);
resp_msg.length = respHeader.messageHeader.messageSize;
connection->send(connection, &resp_msg);
}
UA_OpenSecureChannelResponse_deleteMembers(&p);
UA_AsymmetricAlgorithmSecurityHeader_deleteMembers(&asymHeader);
}
